Hüseyin Aysan is a Postdoctoral Researcher within the Dependability Group at Mälardalen University. He is currently involved in the SYNOPSIS project. He received his M.Sc. degree in Robotics in 2006, and his Ph.D. degree in Computer Science in 2012 both from Mälardalen University, Sweden.
His research interests include, run-time fault-tolerance techniques, fault-tolerant real-time scheduling and design-time dependability analysis of dependable real-time embedded systems.
Error Handling Algorithm and Probabilistic Analysis Under Fault for CAN-Based Steer-by-Wire System (Mar 2016) M Badril Nor Shah , Abdul Rashid Husain , Hüseyin Aysan, Sasikumar Punnekkat, Radu Dobrin IEEE Transactions on Industrial Informatics 2016 (IEEE-TII 2016)
Improving Reliability of Real-Time Systems through Value and Time Voting (Dec 2013) Hüseyin Aysan, Iain Bate, Patrick Graydon, Sasikumar Punnekkat The 19th IEEE Pacific Rim International Symposium on Dependable Computing (PRDC 2013)
Probabilistic Schedulability Analysis for Fault Tolerant Tasks under Stochastic Error Occurrences (May 2013) Hüseyin Aysan, Radu Dobrin, Sasikumar Punnekkat 19th International Conference on Control Systems and Computer Science
Schedulability Guarantees for Dependable Distributed Real-Time Systems under Error Bursts (Jan 2013) Hüseyin Aysan, Radu Dobrin, Sasikumar Punnekkat Advances in Intelligent Control Systems and Computer Science (AICSCS-13)
Resource Augmentation for Fault-Tolerance Feasibility of Real-time Tasks under Error Bursts (Nov 2012) Abhilash Thekkilakattil, Radu Dobrin, Sasikumar Punnekkat, Hüseyin Aysan The 20th International Conference on Real-Time and Network Systems (shortlisted for best student paper award)
Probabilistic Scheduling Guarantees in Distributed Real-Time Systems under Error Bursts (Sep 2012) Hüseyin Aysan, Radu Dobrin, Sasikumar Punnekkat, Julián Proenza 17th IEEE International Conference on Emerging Technologies and Factory Automation
|PG-Dep-ET Enabling Technologies for Evaluating/Ensuring Dependability
|PG-Dep-FRAMES Faults and Reliability Aware Methodologies for Efficient Scheduling
|PG-Dep-PEARLS Parameterized Evaluation of Attributes of Reliable Systems
|PG-DEP-REMAP - Reliability Modeling and Analysis for Predictability Assurance
|SYNOPSIS - Safety Analysis for Predictable Software Intensive Systems
|A failure behaviour analysis framework for Progress IDE